1. Construction of the Right Ventricle-to-Pulmonary Artery Conduit in the Norwood: The “Dunk” Technique 
James S. Tweddell, MD, Michael E. Mitchell, MD, Ronald K. Woods, MD, Thomas L. Spray, MD, James A. Quintessenza, MD 
Operative Techniques in Thoracic and Cardiovascular Surgery 
Volume 17, Issue 2, Pages (June 2012)
DOI: /j.optechstcvs
Copyright © 2012 Elsevier Inc. Terms and Conditions

2. Figure 1
After a median sternotomy, the pericardium is opened and the vascular structures are mobilized. The innominate vein is mobilized and looped with a tape; this allows for atraumatic retraction and facilitates exposure of the brachiocephalic vessels.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

3. Figure 2
Cannulation for cardiopulmonary bypass. A Gore-Tex graft (3.0 mm for patients less than 3.0 kg and 3.5 mm for patients greater than 3.0 kg) is anastomosed to the innominate artery and used for arterial cannulation; an 8-Fr arterial cannula (Medtronic, Minneapolis, MN) is used. The right atrial appendage is cannulated with a 16-Fr venous cannula (Medtronic). Cardiopulmonary bypass is instituted and the patient is cooled over 30 minutes to a bladder temperature of <20°C. With initiation of cardiopulmonary bypass, the branch pulmonary arteries are snared and a 13-Fr ventricular vent (Medtronic) is placed through a separate purse-string in the right atrial free wall and directed across the tricuspid valve into the RV. The vent is useful to prevent ventricular distension as contractions become less effective with hypothermia. Ao = aorta; Innom. a. = innominate artery; PA = pulmonary artery; PDA = patent ductus arteriosus; RA = right atrium.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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4. Figure 3
Division and patching the main pulmonary artery. After cooling for approximately 10 minutes, the main pulmonary is divided just proximal to the takeoff of the branch pulmonary arteries and the distal pulmonary artery confluence is patched. Although the heart is beating, there is no risk of air embolism among patients with aortic atresia. For patients with a patent aortic valve, the risk of air embolism can be minimized by ensuring correct vent placement and waiting until hypothermia renders cardiac contractions ineffective. This is confirmed by a nonpulsatile arterial waveform trace. Alternatively a small vascular clamp can be placed across the pulmonary root to prevent entrainment of air.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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5. Figure 4
Mobilization of the proximal descending aorta. After the pulmonary artery confluence is patched, the ductus arteriosus is ligated and the proximal descending aorta is mobilized during the final 10 minutes of cooling. An insulated malleable retractor is used to retract the pericardium and pleura. An insulated cautery is used at low settings to divide the first 2 or 3 sets of intercostal branches. The use of an insulated retractor and cautery tip minimizes the risk of recurrent nerve injury.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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6. Figure 5
Atrial septectomy. After cooling for at least 30 minutes and reaching a bladder temperature between 18 and 20°C, circulatory arrest is established. The arterial line is clamped; the brachiocephalic vessels are snared, and the descending thoracic aorta is clamped. Cardioplegia is delivered via a side arm on the arterial cannula. After cardioplegia is being delivered, the venous cannula is removed and an atrial septectomy is performed.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

7. Figure 6
Initiation of continuous cerebral perfusion (A) and excision of the ductus arteriosus (B). (A) After delivering cardioplegia and completing the atrial septectomy, cerebral perfusion is initiated. A fine vascular clamp is placed across the origin of the innominate artery; the snares on the right subclavian artery and right common carotid artery are loosened and antegrade flow is established. Because of the extensive collateral flow in a neonate, the snares on the left common carotid artery and left subclavian artery as well as the descending thoracic aortic clamp must remain on throughout the period of cerebral perfusion. (B) The aortic isthmus is divided and the ductus arteriosus is divided just distal to the ligature on the pulmonary artery side of the ductus. All residual ductal tissue is excised from the descending thoracic aorta. Two indicators are used to ensure that the ductal tissue is completely excised. First, the arterial duct is thicker walled and the texture more friable than the true descending aorta. Excision is continued until thin-walled normal textured artery is encountered. Second, the excision is continued to within 2-3 mm of the first set of intercostal branches. Because the intercostal arteries arise from the descending thoracic aorta and not the ductus arteriosus, this will further ensure complete excision of the ductal tissue.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

8. Figure 7
Arch reconstruction. The undersurface of the aortic arch is incised beginning at the open aortic isthmus and extending proximally down the ascending aorta. Great care must be taken with the diminutive ascending aorta to avoid spiraling down the ascending aorta. The incision must end precisely at the kissing point between the ascending aorta and the pulmonary root. A cutback is made in the pulmonary root at the site of implantation of the ascending aorta. The posterior commissure of the pulmonary valve is adjacent to the ascending aorta and the cutback extends about 2 mm below the sinotubular junction just left of this commissure. It is also important to end the aortic incision 2-3 mm cephalad to the level of the pulmonary root cutback. This results in a small degree of redundancy in the proximal ascending aorta and ensures a patulous nonstenotic connection between the aortic root and the pulmonary root. A cutback is also made into the posterior left lateral descending thoracic aorta. After excision of the ductal tissue, the first set of intercostal vessels should be close to the proximal end of the descending thoracic aorta. Mobilization of proximal descending aorta is necessary to permit the reconstruction of the distal aortic arch.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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9. Figure 8
Identifying the site for the proximal RV-PA conduit connection. While the pulmonary root is open, a small right-angle clamp is directed across the valve. A site for the proximal RV-PA conduit is identified at least 1 cm below the nadir of the pulmonary valve cusp and well away from any large epicardial coronary arteries. This site is marked with the electrocautery.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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10. Figure 9
Arch reconstruction, continued. The opened distal arch is interdigitated into the cutback in the proximal descending aorta and the posterior walls sutured together with 7-0 prolene suture. The clamp on the descending thoracic aorta assists with pulling it up and approximating it to the distal arch. A second small, 2- to 3-mm cutback is made in the anterior portion of the descending aorta. The connection between the adjacent sites on the ascending aorta and the cutback in the pulmonary root are accomplished with 7-0 prolene or 8-0 prolene in the case of a very small (≤2 mm) ascending aorta. Ao = aorta.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

11. Figure 10
Arch reconstruction, continued. A patch is used for completion of the arch reconstruction and creation of the neoascending aorta. This patch is a quarter circle with a radius of 3 cm and can be pulmonary homograft, pericardium, or porcine small intestinal submucosa (CorMatrix, Alpharetta, GA). The straight edge will be sewn down the left edge of the ascending aorta; the arrows in the figure indicate the alignment.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

12. Figure 11
Arch reconstruction, continued. (A) The straight edge of the patch is sutured along the anterior cutback in the descending aorta and down the left side of the ascending aorta. (B) The curved edge is sewn to the right edge of the ascending aorta. When the junction of the ascending aorta and pulmonary root is reached, the excess patch is trimmed and the proximal connection between the patch and the pulmonary root is completed. (C) After the proximal patch is trimmed, the neoaorta is completed.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

13. Figure 12
Construction of the RV-PA conduit. A ringed Gore-Tex tube graft is brought up and one end is cut flush with the external ring. A marking pen is used to mark the third ring from the end. This corresponds to the thickness of the RV free wall and ensures that only a millimeter or two of the graft protrudes into the RV cavity. If too long a portion of the graft is placed within the RV cavity, the conduit can contact the opposite wall of the ventricle, resulting in obstruction.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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14. Figure 13
Construction of the RV-PA conduit, continued. A stab incision is made in the RV free wall at the previously identified site for the proximal RV-PA conduit connection. No muscle resection is necessary. The graft is then inserted across the RV free wall into the RV cavity.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

15. Figure 14
Construction of the RV-PA conduit, continued. The ringed Gore-Tex tube graft is positioned so that the third ring from the end is flush with the epicardium. This ensures that only a millimeter or two of the graft protrudes into the RV cavity. Two 6-0 prolene purse-strings are used to tighten the epicardium around the proximal conduit. No additional fixation sutures are used.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions

16. Figure 15
Construction of the RV-PA conduit, continued. The conduit is positioned to the right of the neoascending aorta. The branch pulmonary arteries are fully mobilized and this allows the central pulmonary artery to be positioned to the right of the neoascending aorta. An arteriotomy is made in the pulmonary artery patch and the distal RV-PA connection is completed with 8-0 prolene.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
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17. Figure 16
Completion of the procedure. At the completion of the operation, atrial lines are placed through the right atrial appendage cannulation site for additional central venous access. An oximetric catheter (Abbott Laboratories) is placed in the superior vena cava through a small felted purse-string suture. Although conduction problems are rare, arrhythmias are common and therefore both atrial and ventricular pacing wires are placed. We routinely leave the chest open. The sternotomy is closed once the patient begins to diurese and when vasoactive drug support has been weaned to low levels. Typically chest closure is performed on postoperative day 2 or 3. RA = right atrium.
Operative Techniques in Thoracic and Cardiovascular Surgery  , 81-98DOI: ( /j.optechstcvs )
Copyright © 2012 Elsevier Inc. Terms and Conditions